Hydrological modeling of catchment specific runoff-response to variable land-use/climatic conditions and trend-based hypothetical scenario generation: a study on a large river basin in Eastern India

“…In recent years, scholars from various countries have conducted a lot of research on runoff variation and attribution analysis (Guo et al 2020). Miao et al (2011) studied the correlation between precipitation and runoff in the base period at seven river gauging stations since 1970 by using the hydrographic method, and clarified the contribution rate of climate change and human activities to the reduction of runoff in the upper, middle and lower reaches of the Yellow River; Pirnia et al (2019) applied the double cumulative curve method to monitor and analyze the impact of climate variability and human activities changes in stream flow of the Haraz River basin in northern Iran from 1975 to 2010; Patterson et al (2013) used Budyko curves to ascribe changes in streamflow due to climate and human factors between two time periods in both natural and human-modified basins in the South Atlantic; Hu et al (2021) assessed the long-term runoff dynamics of Amu Darya River basin applying the elasticity coefficient method coupled with the water balance and Budyko framework; Santra Mitra et al (2021) quantified the relative contribution of climate change and land-use change to runoff response in the Kangshabati River basin of West Bengal by using SWAT model; Lv et al (2022) calculated the effects of climate variation and human activities on streamflow change in a poorly gauged arid inland basin based on SWAT and Budyko-based Mezentsev-Choudhurdy-Yang model driven by multi-source precipitation datasets.…”

Analysis of runoff variation and driving mechanism in Huangfuchuan River Basin in the middle reaches of the Yellow River, China

“…In recent years, scholars from various countries have conducted a lot of research on runoff variation and attribution analysis (Guo et al 2020). Miao et al (2011) studied the correlation between precipitation and runoff in the base period at seven river gauging stations since 1970 by using the hydrographic method, and clarified the contribution rate of climate change and human activities to the reduction of runoff in the upper, middle and lower reaches of the Yellow River; Pirnia et al (2019) applied the double cumulative curve method to monitor and analyze the impact of climate variability and human activities changes in stream flow of the Haraz River basin in northern Iran from 1975 to 2010; Patterson et al (2013) used Budyko curves to ascribe changes in streamflow due to climate and human factors between two time periods in both natural and human-modified basins in the South Atlantic; Hu et al (2021) assessed the long-term runoff dynamics of Amu Darya River basin applying the elasticity coefficient method coupled with the water balance and Budyko framework; Santra Mitra et al (2021) quantified the relative contribution of climate change and land-use change to runoff response in the Kangshabati River basin of West Bengal by using SWAT model; Lv et al (2022) calculated the effects of climate variation and human activities on streamflow change in a poorly gauged arid inland basin based on SWAT and Budyko-based Mezentsev-Choudhurdy-Yang model driven by multi-source precipitation datasets.…”

Analysis of runoff variation and driving mechanism in Huangfuchuan River Basin in the middle reaches of the Yellow River, China

Investigating impact of CORDEX-based predicted climatic and LCM-based LULC scenarios on hydrologic response of a semi-gauged Indian catchment

Possibility of using the STORAGE rainfall generator model in the flood analyses in urban areas